Image processing system, image processing device, and computer program

The invention claimed is: 1. An image processing system for converting a color space represented by color components of image data, comprising: a color space converter configured to correct the color components of the image data by converting the color space such that influence of chromatic adaptation caused by ambient light is maintained for particular color components belonging to a portion of a color gamut of the image data, wherein a perceived color gamut is widened relative to the color gamut in the portion due to the influence when a user perceives color in the color gamut under the ambient light, and such that the influence is canceled for particular color components belonging to another portion of the color gamut, wherein the perceived color gamut is narrowed relative to the color gamut in the another portion due to the influence when the user perceives color in the color gamut under the ambient light; and a display unit configured to display, as an output image, the image data using the corrected color components. 2. The image processing system of claim 1 , further comprising: an ambient light information acquisition unit configured to acquire information on the ambient light as ambient light information; and a chromatic adaptation calculator configured to calculate the influence of the chromatic adaptation caused by the ambient light on the basis of the acquired ambient light information and to output the influence of the chromatic adaptation to the color space converter. 3. The image processing system of claim 1 , wherein the color components comprise three primary colors consisting of red, green, and blue, and when the ambient light is a bluish color and the particular color components belonging to the another portion include a greenish color. 4. The image processing system of claim 1 , wherein the color components comprise three primary colors consisting of red, green, and blue, and when the ambient light is a reddish color, and the particular color components belonging to the another portion include a reddish color. 5. The image processing system of claim 1 , wherein the color components comprise three primary colors consisting of red, green, and blue, and when the ambient light is a greenish color, the particular color components belonging to the another portion include a reddish color and/or a greenish color. 6. The image processing system of claim 1 , wherein the display unit is configured to be able to display wider color gamut than the converted color space. 7. The image processing system of claim 1 , wherein if the converted color space exceeds color gamut displayable on the display unit, the color space converter performs a rounding process on the color space so that the color space falls within the color gamut. 8. The image processing system of claim 7 , wherein the color space of the image data is an sRGB color space, and a color space displayable on the display unit is color gamut defined by red where X=0.640 and Y=0.330, green where X=0.210 and Y=0.710, and blue where X=0.150 and Y=0.060. 9. The image processing system of claim 1 , wherein the color space converter is configured to allow the user to control a degree of correction of the color components. 10. The image processing system of claim 2 , wherein the ambient light information acquisition unit comprises a color sensor configured to detect color components of the ambient light as ambient light information. 11. The image processing system of claim 10 , wherein the chromatic adaptation calculator calculates the influence of the chromatic adaptation by averaging the ambient light information detected by the color sensor in a predetermined period. 12. The image processing system of claim 1 , wherein the color space converter sets reference chromaticity serving as a reference in conversion of the color space so that the influence of the chromatic adaptation on intermediate colors is further canceled. 13. The image processing system of claim 12 , wherein the reference chromaticity is chromaticity perceived as white due to influence of the ambient light. 14. The image processing system of claim 12 , wherein the color space converter is configured to convert the color space such that chromaticity of one color component belonging to a portion of the color gamut of the image data is fixed, and when the user perceives color in the color gamut under the ambient light, the perceived color gamut is widened relative to the color gamut in the portion due to the influence. 15. The image processing system of claim 1 , wherein the color space converter performs different conversion processes on a plurality of areas in the color space. 16. An image processing device for converting a color space represented by color components of image data, the image processing device comprising a color space converter configured to correct the color components of the image data by converting the color space such that influence of chromatic adaptation caused by ambient light is maintained with respect to for particular color components belonging to a portion of a color gamut of the image data, wherein a perceived color gamut is widened relative to the color gamut in the portion due to the influence when a user perceives color in the color gamut under the ambient light, and such that the influence is canceled for particular color components belonging to another portion of the color gamut, wherein the perceived color gamut is narrowed relative to the color gamut in the another portion due to the influence when the user perceives color in the color gamut under the ambient light. 17. An image processing method for converting a color space represented by color components of image data, the image processing method comprising a color space conversion step of correcting the color components of the image data by converting the color space such that influence of chromatic adaptation caused by ambient light is maintained for particular color components belonging to a portion of a color gamut of the image data, wherein a perceived color gamut is widened relative to the color gamut in the portion due to the influence when a user perceives color in the color gamut under the ambient light, and such that the influence is canceled for particular color components belonging to another portion of the color gamut, wherein the perceived color gamut is narrowed relative to the color gamut in the another portion due to by the influence when the user perceives color in the color gamut under the ambient light, the influence is canceled. 18. A non-transitory computer-readable storage medium storing a computer program for causing a computer to perform an image processing method for converting a color space represented by color components of image data, the image processing method comprising a color space conversion step of correcting the color components of the image data by converting the color space such that influence of chromatic adaptation caused by ambient light is maintained for particular color components belonging to a portion of a color gamut of the image data, wherein a perceived color gamut is widened relative to the color gamut in the portion due to the influence when a user perceives color in the color gamut under the ambient light, and such that the influence is canceled for particular color components belonging to another portion of the color gamut, wherein the perceived color gamut is narrowed relative to the color gamut in the another portion due to by the influence when the user perceives color in